The reaction of O+(4S) and N2(X 1Σg+) revisited: Recoil velocity analysis of the NO+ product
The guided-ion beam method has been used to measure time-of-flight (TOF) spectra of the NO+ produced in the reaction of O+(4S) and N2(X 1Σg+). Particular care was taken to minimize the participation of the O+(2D,2P) metastables in the reactions, the success of which is validated by measuring the abs...
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| Veröffentlicht in: | The Journal of chemical physics 1999-09, Vol.111 (9), p.3954-3960 |
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| container_title | The Journal of chemical physics |
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| creator | Levandier, Dale J. Dressler, Rainer A. Chiu, Yu-hui Murad, Edmond |
| description | The guided-ion beam method has been used to measure time-of-flight (TOF) spectra of the NO+ produced in the reaction of O+(4S) and N2(X 1Σg+). Particular care was taken to minimize the participation of the O+(2D,2P) metastables in the reactions, the success of which is validated by measuring the absolute cross section for the reaction as a function of collision energy in the near-thermal to 1.5 eV range. In this range, the cross section exhibits a region of low reactivity at near-thermal energies, which can be obscured by reactions of metastables and other effects, and a region of sharply increasing reactivity above a threshold of collision energy ≈0.3 eV. The velocity-transformed TOF spectra, at collision energies of 0.51 eV, 0.80 eV, 3.2 eV, and 6.3 eV, indicate two reaction mechanisms: in the first, product ions are scattered backward with inefficient translational to internal energy conversion; in the second, product ions arise from intermediate collision complexes with efficient translational energy conversion. The first mechanism is associated with the passage through the spin-forbidden doublet ground state N2O+ intermediate, while the second involves passage through an endothermic quartet intermediate. |
| doi_str_mv | 10.1063/1.479697 |
| format | Article |
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Particular care was taken to minimize the participation of the O+(2D,2P) metastables in the reactions, the success of which is validated by measuring the absolute cross section for the reaction as a function of collision energy in the near-thermal to 1.5 eV range. In this range, the cross section exhibits a region of low reactivity at near-thermal energies, which can be obscured by reactions of metastables and other effects, and a region of sharply increasing reactivity above a threshold of collision energy ≈0.3 eV. The velocity-transformed TOF spectra, at collision energies of 0.51 eV, 0.80 eV, 3.2 eV, and 6.3 eV, indicate two reaction mechanisms: in the first, product ions are scattered backward with inefficient translational to internal energy conversion; in the second, product ions arise from intermediate collision complexes with efficient translational energy conversion. The first mechanism is associated with the passage through the spin-forbidden doublet ground state N2O+ intermediate, while the second involves passage through an endothermic quartet intermediate.</abstract><doi>10.1063/1.479697</doi><tpages>7</tpages></addata></record> |
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| ispartof | The Journal of chemical physics, 1999-09, Vol.111 (9), p.3954-3960 |
| issn | 0021-9606 1089-7690 |
| language | eng |
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| source | AIP Journals Complete; AIP Digital Archive |
| title | The reaction of O+(4S) and N2(X 1Σg+) revisited: Recoil velocity analysis of the NO+ product |
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